import json
from collections import OrderedDict
from copy import deepcopy
from urllib.parse import urlparse

from django.db import DEFAULT_DB_ALIAS, models
from django.db.models import Subquery
from django.db.models.sql import Query
from django.db.models.sql.constants import MULTI, SINGLE
from django.utils.crypto import get_random_string
from elasticsearch import VERSION as ELASTICSEARCH_VERSION
from elasticsearch import Elasticsearch, NotFoundError
from elasticsearch.helpers import bulk

from wagtail.search.backends.base import (
    BaseSearchBackend,
    BaseSearchQueryCompiler,
    BaseSearchResults,
    FilterFieldError,
    get_model_root,
)
from wagtail.search.index import (
    AutocompleteField,
    FilterField,
    Indexed,
    RelatedFields,
    SearchField,
    class_is_indexed,
    get_indexed_models,
)
from wagtail.search.query import And, Boost, Fuzzy, MatchAll, Not, Or, Phrase, PlainText
from wagtail.utils.utils import deep_update

use_new_elasticsearch_api = ELASTICSEARCH_VERSION >= (7, 15)


class Field:
    def __init__(self, field_name, boost=1):
        self.field_name = field_name
        self.boost = boost

    @property
    def field_name_with_boost(self):
        if self.boost == 1:
            return self.field_name
        else:
            return f"{self.field_name}^{self.boost}"


class Elasticsearch7Mapping:
    all_field_name = "_all_text"
    edgengrams_field_name = "_edgengrams"

    type_map = {
        "AutoField": "integer",
        "SmallAutoField": "integer",
        "BigAutoField": "long",
        "BinaryField": "binary",
        "BooleanField": "boolean",
        "CharField": "string",
        "CommaSeparatedIntegerField": "string",
        "DateField": "date",
        "DateTimeField": "date",
        "DecimalField": "double",
        "FileField": "string",
        "FilePathField": "string",
        "FloatField": "double",
        "IntegerField": "integer",
        "BigIntegerField": "long",
        "IPAddressField": "string",
        "GenericIPAddressField": "string",
        "NullBooleanField": "boolean",
        "PositiveIntegerField": "integer",
        "PositiveSmallIntegerField": "integer",
        "PositiveBigIntegerField": "long",
        "SlugField": "string",
        "SmallIntegerField": "integer",
        "TextField": "string",
        "TimeField": "date",
        "URLField": "string",
    }

    keyword_type = "keyword"
    text_type = "text"
    edgengram_analyzer_config = {
        "analyzer": "edgengram_analyzer",
        "search_analyzer": "standard",
    }

    def __init__(self, model):
        self.model = model

    def get_parent(self):
        for base in self.model.__bases__:
            if issubclass(base, Indexed) and issubclass(base, models.Model):
                return type(self)(base)

    def get_document_type(self):
        return "doc"

    def get_field_column_name(self, field):
        # Fields in derived models get prefixed with their model name, fields
        # in the root model don't get prefixed at all
        # This is to prevent mapping clashes in cases where two page types have
        # a field with the same name but a different type.
        root_model = get_model_root(self.model)
        definition_model = field.get_definition_model(self.model)

        if definition_model != root_model:
            prefix = (
                definition_model._meta.app_label.lower()
                + "_"
                + definition_model.__name__.lower()
                + "__"
            )
        else:
            prefix = ""

        if isinstance(field, FilterField):
            return prefix + field.get_attname(self.model) + "_filter"
        elif isinstance(field, AutocompleteField):
            return prefix + field.get_attname(self.model) + "_edgengrams"
        elif isinstance(field, SearchField):
            return prefix + field.get_attname(self.model)
        elif isinstance(field, RelatedFields):
            return prefix + field.field_name

    def get_boost_field_name(self, boost):
        # replace . with _ to avoid issues with . in field names
        boost = str(float(boost)).replace(".", "_")
        return f"{self.all_field_name}_boost_{boost}"

    def get_content_type(self):
        """
        Returns the content type as a string for the model.

        For example: "wagtailcore.Page"
                     "myapp.MyModel"
        """
        return self.model._meta.app_label + "." + self.model.__name__

    def get_all_content_types(self):
        """
        Returns all the content type strings that apply to this model.
        This includes the models' content type and all concrete ancestor
        models that inherit from Indexed.

        For example: ["myapp.MyPageModel", "wagtailcore.Page"]
                     ["myapp.MyModel"]
        """
        # Add our content type
        content_types = [self.get_content_type()]

        # Add all ancestor classes content types as well
        ancestor = self.get_parent()
        while ancestor:
            content_types.append(ancestor.get_content_type())
            ancestor = ancestor.get_parent()

        return content_types

    def get_field_mapping(self, field):
        if isinstance(field, RelatedFields):
            mapping = {"type": "nested", "properties": {}}
            nested_model = field.get_field(self.model).related_model
            nested_mapping = type(self)(nested_model)

            for sub_field in field.fields:
                sub_field_name, sub_field_mapping = nested_mapping.get_field_mapping(
                    sub_field
                )
                mapping["properties"][sub_field_name] = sub_field_mapping

            return self.get_field_column_name(field), mapping
        else:
            mapping = {"type": self.type_map.get(field.get_type(self.model), "string")}

            if isinstance(field, SearchField):
                if mapping["type"] == "string":
                    mapping["type"] = self.text_type

                if field.boost:
                    mapping["boost"] = field.boost

                mapping["include_in_all"] = True

            if isinstance(field, AutocompleteField):
                mapping["type"] = self.text_type
                mapping.update(self.edgengram_analyzer_config)

            elif isinstance(field, FilterField):
                if mapping["type"] == "string":
                    mapping["type"] = self.keyword_type

            if "es_extra" in field.kwargs:
                for key, value in field.kwargs["es_extra"].items():
                    mapping[key] = value

            return self.get_field_column_name(field), mapping

    def get_mapping(self):
        # Make field list
        fields = {
            "pk": {"type": self.keyword_type, "store": True},
            "content_type": {"type": self.keyword_type},
            self.edgengrams_field_name: {"type": self.text_type},
        }
        fields[self.edgengrams_field_name].update(self.edgengram_analyzer_config)

        for field in self.model.get_search_fields():
            key, val = self.get_field_mapping(field)
            fields[key] = val

        # Add _all_text field
        fields[self.all_field_name] = {"type": "text"}

        unique_boosts = set()

        # Replace {"include_in_all": true} with {"copy_to": ["_all_text", "_all_text_boost_2"]}
        def replace_include_in_all(properties):
            for field_mapping in properties.values():
                if "include_in_all" in field_mapping:
                    if field_mapping["include_in_all"]:
                        field_mapping["copy_to"] = self.all_field_name

                        if "boost" in field_mapping:
                            # added to unique_boosts to avoid duplicate fields, or cases like 2.0 and 2
                            unique_boosts.add(field_mapping["boost"])
                            field_mapping["copy_to"] = [
                                field_mapping["copy_to"],
                                self.get_boost_field_name(field_mapping["boost"]),
                            ]
                            del field_mapping["boost"]

                    del field_mapping["include_in_all"]

                if field_mapping["type"] == "nested":
                    replace_include_in_all(field_mapping["properties"])

        replace_include_in_all(fields)
        for boost in unique_boosts:
            fields[self.get_boost_field_name(boost)] = {"type": "text"}

        return {
            "properties": fields,
        }

    def get_document_id(self, obj):
        return str(obj.pk)

    def _get_nested_document(self, fields, obj):
        doc = {}
        edgengrams = []
        model = type(obj)
        mapping = type(self)(model)

        for field in fields:
            value = field.get_value(obj)
            doc[mapping.get_field_column_name(field)] = value

            # Check if this field should be added into _edgengrams
            if isinstance(field, AutocompleteField):
                edgengrams.append(value)

        return doc, edgengrams

    def get_document(self, obj):
        # Build document
        doc = {"pk": str(obj.pk), "content_type": self.get_all_content_types()}
        edgengrams = []
        for field in self.model.get_search_fields():
            value = field.get_value(obj)

            if isinstance(field, RelatedFields):
                if isinstance(value, (models.Manager, models.QuerySet)):
                    nested_docs = []

                    for nested_obj in value.all():
                        nested_doc, extra_edgengrams = self._get_nested_document(
                            field.fields, nested_obj
                        )
                        nested_docs.append(nested_doc)
                        edgengrams.extend(extra_edgengrams)

                    value = nested_docs
                elif isinstance(value, models.Model):
                    value, extra_edgengrams = self._get_nested_document(
                        field.fields, value
                    )
                    edgengrams.extend(extra_edgengrams)
            elif isinstance(field, FilterField):
                if isinstance(value, (models.Manager, models.QuerySet)):
                    value = list(value.values_list("pk", flat=True))
                elif isinstance(value, models.Model):
                    value = value.pk
                elif isinstance(value, (list, tuple)):
                    value = [
                        item.pk if isinstance(item, models.Model) else item
                        for item in value
                    ]

            doc[self.get_field_column_name(field)] = value

            # Check if this field should be added into _edgengrams
            if isinstance(field, AutocompleteField):
                edgengrams.append(value)

        # Add partials to document
        doc[self.edgengrams_field_name] = edgengrams

        return doc

    def __repr__(self):
        return f"<ElasticsearchMapping: {self.model.__name__}>"


class Elasticsearch7Index:
    def __init__(self, backend, name):
        self.backend = backend
        self.es = backend.es
        self.mapping_class = backend.mapping_class
        self.name = name

    if use_new_elasticsearch_api:

        def put(self):
            self.es.indices.create(index=self.name, **self.backend.settings)

        def delete(self):
            try:
                self.es.indices.delete(index=self.name)
            except NotFoundError:
                pass

        def refresh(self):
            self.es.indices.refresh(index=self.name)

    else:

        def put(self):
            self.es.indices.create(self.name, self.backend.settings)

        def delete(self):
            try:
                self.es.indices.delete(self.name)
            except NotFoundError:
                pass

        def refresh(self):
            self.es.indices.refresh(self.name)

    def exists(self):
        return self.es.indices.exists(self.name)

    def is_alias(self):
        return self.es.indices.exists_alias(name=self.name)

    def aliased_indices(self):
        """
        If this index object represents an alias (which appear the same in the
        Elasticsearch API), this method can be used to fetch the list of indices
        the alias points to.

        Use the is_alias method if you need to find out if this an alias. This
        returns an empty list if called on an index.
        """
        return [
            self.backend.index_class(self.backend, index_name)
            for index_name in self.es.indices.get_alias(name=self.name).keys()
        ]

    def put_alias(self, name):
        """
        Creates a new alias to this index. If the alias already exists it will
        be repointed to this index.
        """
        self.es.indices.put_alias(name=name, index=self.name)

    def add_model(self, model):
        # Get mapping
        mapping = self.mapping_class(model)

        # Put mapping
        self.es.indices.put_mapping(index=self.name, body=mapping.get_mapping())

    if use_new_elasticsearch_api:

        def add_item(self, item):
            # Make sure the object can be indexed
            if not class_is_indexed(item.__class__):
                return

            # Get mapping
            mapping = self.mapping_class(item.__class__)

            # Add document to index
            self.es.index(
                index=self.name,
                document=mapping.get_document(item),
                id=mapping.get_document_id(item),
            )

    else:

        def add_item(self, item):
            # Make sure the object can be indexed
            if not class_is_indexed(item.__class__):
                return
            # Get mapping
            mapping = self.mapping_class(item.__class__)

            # Add document to index
            self.es.index(
                self.name, mapping.get_document(item), id=mapping.get_document_id(item)
            )

    def add_items(self, model, items):
        if not class_is_indexed(model):
            return

        # Get mapping
        mapping = self.mapping_class(model)

        # Create list of actions
        actions = []
        for item in items:
            # Create the action
            action = {"_id": mapping.get_document_id(item)}
            action.update(mapping.get_document(item))
            actions.append(action)

        # Run the actions
        bulk(self.es, actions, index=self.name)

    def delete_item(self, item):
        # Make sure the object can be indexed
        if not class_is_indexed(item.__class__):
            return

        # Get mapping
        mapping = self.mapping_class(item.__class__)

        # Delete document
        try:
            self.es.delete(index=self.name, id=mapping.get_document_id(item))
        except NotFoundError:
            pass  # Document doesn't exist, ignore this exception

    def reset(self):
        # Delete old index
        self.delete()

        # Create new index
        self.put()


class Elasticsearch7SearchQueryCompiler(BaseSearchQueryCompiler):
    mapping_class = Elasticsearch7Mapping
    DEFAULT_OPERATOR = "or"

    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)
        self.mapping = self.mapping_class(self.queryset.model)
        self.remapped_fields = self._remap_fields(self.fields)

    def _remap_fields(self, fields):
        """Convert field names into index column names and add boosts."""

        remapped_fields = []
        if fields:
            searchable_fields = {f.field_name: f for f in self.get_searchable_fields()}
            for field_name in fields:
                field = searchable_fields.get(field_name)
                if field:
                    field_name = self.mapping.get_field_column_name(field)
                    remapped_fields.append(Field(field_name, field.boost or 1))
        else:
            remapped_fields.append(Field(self.mapping.all_field_name))

            models = get_indexed_models()
            unique_boosts = set()
            for model in models:
                if not issubclass(model, self.queryset.model):
                    continue
                for field in model.get_searchable_search_fields():
                    if field.boost:
                        unique_boosts.add(float(field.boost))

            remapped_fields.extend(
                [
                    Field(self.mapping.get_boost_field_name(boost), boost)
                    for boost in unique_boosts
                ]
            )

        return remapped_fields

    def _process_lookup(self, field, lookup, value):
        column_name = self.mapping.get_field_column_name(field)

        if lookup == "exact":
            if value is None:
                return {
                    "missing": {
                        "field": column_name,
                    }
                }
            else:
                if isinstance(value, (Query, Subquery)):
                    db_alias = self.queryset._db or DEFAULT_DB_ALIAS
                    query = value.query if isinstance(value, Subquery) else value
                    value = query.get_compiler(db_alias).execute_sql(result_type=SINGLE)
                    # The result is either a tuple with one element or None
                    if value:
                        value = value[0]

                return {
                    "term": {
                        column_name: value,
                    }
                }

        if lookup == "isnull":
            query = {
                "exists": {
                    "field": column_name,
                }
            }

            if value:
                query = {"bool": {"mustNot": query}}

            return query

        if lookup in ["startswith", "prefix"]:
            return {
                "prefix": {
                    column_name: value,
                }
            }

        if lookup in ["gt", "gte", "lt", "lte"]:
            return {
                "range": {
                    column_name: {
                        lookup: value,
                    }
                }
            }

        if lookup == "range":
            lower, upper = value

            return {
                "range": {
                    column_name: {
                        "gte": lower,
                        "lte": upper,
                    }
                }
            }

        if lookup == "in":
            if isinstance(value, (Query, Subquery)):
                db_alias = self.queryset._db or DEFAULT_DB_ALIAS
                query = value.query if isinstance(value, Subquery) else value
                resultset = query.get_compiler(db_alias).execute_sql(result_type=MULTI)
                value = [row[0] for chunk in resultset for row in chunk]

            elif not isinstance(value, list):
                value = list(value)
            return {
                "terms": {
                    column_name: value,
                }
            }

    def _process_match_none(self):
        return {"bool": {"mustNot": {"match_all": {}}}}

    def _connect_filters(self, filters, connector, negated):
        if filters:
            if len(filters) == 1:
                filter_out = filters[0]
            elif connector == "AND":
                filter_out = {
                    "bool": {"must": [fil for fil in filters if fil is not None]}
                }
            elif connector == "OR":
                filter_out = {
                    "bool": {"should": [fil for fil in filters if fil is not None]}
                }

            if negated:
                filter_out = {"bool": {"mustNot": filter_out}}

            return filter_out

    def _compile_plaintext_query(self, query, fields, boost=1.0):
        match_query = {"query": query.query_string}

        if query.operator != "or":
            match_query["operator"] = query.operator

        if len(fields) == 1:
            if boost != 1.0 or fields[0].boost != 1.0:
                match_query["boost"] = boost * fields[0].boost
            return {"match": {fields[0].field_name: match_query}}
        else:
            if boost != 1.0:
                match_query["boost"] = boost
            match_query["fields"] = [field.field_name_with_boost for field in fields]

            return {"multi_match": match_query}

    def _compile_fuzzy_query(self, query, fields):
        match_query = {
            "query": query.query_string,
            "fuzziness": "AUTO",
        }

        if query.operator != "or":
            match_query["operator"] = query.operator

        if len(fields) == 1:
            if fields[0].boost != 1.0:
                match_query["boost"] = fields[0].boost
            return {"match": {fields[0].field_name: match_query}}
        else:
            match_query["fields"] = [field.field_name_with_boost for field in fields]
            return {"multi_match": match_query}

    def _compile_phrase_query(self, query, fields):
        if len(fields) == 1:
            if fields[0].boost != 1.0:
                return {
                    "match_phrase": {
                        fields[0].field_name: {
                            "query": query.query_string,
                            "boost": fields[0].boost,
                        }
                    }
                }
            else:
                return {"match_phrase": {fields[0].field_name: query.query_string}}
        else:
            return {
                "multi_match": {
                    "query": query.query_string,
                    "fields": [field.field_name_with_boost for field in fields],
                    "type": "phrase",
                }
            }

    def _compile_query(self, query, field, boost=1.0):
        if isinstance(query, MatchAll):
            match_all_query = {}

            if boost != 1.0:
                match_all_query["boost"] = boost

            return {"match_all": match_all_query}

        elif isinstance(query, And):
            return {
                "bool": {
                    "must": [
                        self._compile_query(child_query, field, boost)
                        for child_query in query.subqueries
                    ]
                }
            }

        elif isinstance(query, Or):
            return {
                "bool": {
                    "should": [
                        self._compile_query(child_query, field, boost)
                        for child_query in query.subqueries
                    ]
                }
            }

        elif isinstance(query, Not):
            return {
                "bool": {"mustNot": self._compile_query(query.subquery, field, boost)}
            }

        elif isinstance(query, PlainText):
            return self._compile_plaintext_query(query, [field], boost)

        elif isinstance(query, Fuzzy):
            return self._compile_fuzzy_query(query, [field])

        elif isinstance(query, Phrase):
            return self._compile_phrase_query(query, [field])

        elif isinstance(query, Boost):
            return self._compile_query(query.subquery, field, boost * query.boost)

        else:
            raise NotImplementedError(
                "`%s` is not supported by the Elasticsearch search backend."
                % query.__class__.__name__
            )

    def get_inner_query(self):
        if self.remapped_fields:
            fields = self.remapped_fields
        else:
            fields = [self.mapping.all_field_name]

        if len(fields) == 0:
            # No fields. Return a query that'll match nothing
            return {"bool": {"mustNot": {"match_all": {}}}}

        # Handle MatchAll and PlainText separately as they were supported
        # before "search query classes" was implemented and we'd like to
        # keep the query the same as before
        if isinstance(self.query, MatchAll):
            return {"match_all": {}}

        elif isinstance(self.query, PlainText):
            return self._compile_plaintext_query(self.query, fields)

        elif isinstance(self.query, Phrase):
            return self._compile_phrase_query(self.query, fields)

        elif isinstance(self.query, Fuzzy):
            return self._compile_fuzzy_query(self.query, fields)

        elif isinstance(self.query, Not):
            return {
                "bool": {
                    "mustNot": [
                        self._compile_query(self.query.subquery, field)
                        for field in fields
                    ]
                }
            }

        else:
            return self._join_and_compile_queries(self.query, fields)

    def _join_and_compile_queries(self, query, fields, boost=1.0):
        if len(fields) == 1:
            return self._compile_query(query, fields[0], boost)
        else:
            # Compile a query for each field then combine with disjunction
            # max (or operator which takes the max score out of each of the
            # field queries)
            field_queries = []
            for field in fields:
                field_queries.append(self._compile_query(query, field, boost))

            return {"dis_max": {"queries": field_queries}}

    def get_content_type_filter(self):
        # Query content_type using a "match" query. See comment in
        # Elasticsearch7Mapping.get_document for more details
        content_type = self.mapping_class(self.queryset.model).get_content_type()

        return {"match": {"content_type": content_type}}

    def get_filters(self):
        # Filter by content type
        filters = [self.get_content_type_filter()]

        # Apply filters from queryset
        queryset_filters = self._get_filters_from_queryset()
        if queryset_filters:
            filters.append(queryset_filters)

        return filters

    def get_query(self):
        inner_query = self.get_inner_query()
        filters = self.get_filters()

        if len(filters) == 1:
            return {
                "bool": {
                    "must": inner_query,
                    "filter": filters[0],
                }
            }
        elif len(filters) > 1:
            return {
                "bool": {
                    "must": inner_query,
                    "filter": filters,
                }
            }
        else:
            return inner_query

    def get_searchable_fields(self):
        return self.queryset.model.get_searchable_search_fields()

    def get_sort(self):
        # Ordering by relevance is the default in Elasticsearch
        if self.order_by_relevance:
            return

        # Get queryset and make sure its ordered
        if self.queryset.ordered:
            sort = []

            for reverse, field in self._get_order_by():
                column_name = self.mapping.get_field_column_name(field)

                sort.append({column_name: "desc" if reverse else "asc"})

            return sort

        else:
            # Order by pk field
            return ["pk"]

    def __repr__(self):
        return json.dumps(self.get_query())


class Elasticsearch7SearchResults(BaseSearchResults):
    fields_param_name = "stored_fields"
    supports_facet = True

    def facet(self, field_name):
        # Get field
        field = self.query_compiler._get_filterable_field(field_name)
        if field is None:
            raise FilterFieldError(
                'Cannot facet search results with field "'
                + field_name
                + "\". Please add index.FilterField('"
                + field_name
                + "') to "
                + self.query_compiler.queryset.model.__name__
                + ".search_fields.",
                field_name=field_name,
            )

        # Build body
        body = self._get_es_body()
        column_name = self.query_compiler.mapping.get_field_column_name(field)

        body["aggregations"] = {
            field_name: {
                "terms": {
                    "field": column_name,
                    "missing": 0,
                }
            }
        }

        # Send to Elasticsearch
        response = self._backend_do_search(
            body,
            index=self.backend.get_index_for_model(
                self.query_compiler.queryset.model
            ).name,
            size=0,
        )

        return OrderedDict(
            [
                (bucket["key"] if bucket["key"] != 0 else None, bucket["doc_count"])
                for bucket in response["aggregations"][field_name]["buckets"]
            ]
        )

    def _get_es_body(self, for_count=False):
        body = {"query": self.query_compiler.get_query()}

        if not for_count:
            sort = self.query_compiler.get_sort()

            if sort is not None:
                body["sort"] = sort

        return body

    def _get_results_from_hits(self, hits):
        """
        Yields Django model instances from a page of hits returned by Elasticsearch
        """
        # Get pks from results
        pks = [hit["fields"]["pk"][0] for hit in hits]
        scores = {str(hit["fields"]["pk"][0]): hit["_score"] for hit in hits}

        # Initialise results dictionary
        results = {str(pk): None for pk in pks}

        # Find objects in database and add them to dict
        for obj in self.query_compiler.queryset.filter(pk__in=pks):
            results[str(obj.pk)] = obj

            if self._score_field:
                setattr(obj, self._score_field, scores.get(str(obj.pk)))

        # Yield results in order given by Elasticsearch
        for pk in pks:
            result = results[str(pk)]
            if result:
                yield result

    if use_new_elasticsearch_api:

        def _backend_do_search(self, body, **kwargs):
            # As of Elasticsearch 7.15, the 'body' parameter is deprecated; instead, the top-level
            # keys of the body dict are now kwargs in their own right
            return self.backend.es.search(**body, **kwargs)

    else:

        def _backend_do_search(self, body, **kwargs):
            # Send the search query to the backend.
            return self.backend.es.search(body=body, **kwargs)

    def _do_search(self):
        PAGE_SIZE = 100

        if self.stop is not None:
            limit = self.stop - self.start
        else:
            limit = None

        use_scroll = limit is None or limit > PAGE_SIZE

        body = self._get_es_body()
        params = {
            "index": self.backend.get_index_for_model(
                self.query_compiler.queryset.model
            ).name,
            "_source": False,
            self.fields_param_name: "pk",
        }

        if use_scroll:
            params.update(
                {
                    "scroll": "2m",
                    "size": PAGE_SIZE,
                }
            )

            # The scroll API doesn't support offset, manually skip the first results
            skip = self.start

            # Send to Elasticsearch
            page = self._backend_do_search(body, **params)

            while True:
                hits = page["hits"]["hits"]

                if len(hits) == 0:
                    break

                # Get results
                if skip < len(hits):
                    for result in self._get_results_from_hits(hits):
                        if limit is not None and limit == 0:
                            break

                        if skip == 0:
                            yield result

                            if limit is not None:
                                limit -= 1
                        else:
                            skip -= 1

                    if limit is not None and limit == 0:
                        break
                else:
                    # Skip whole page
                    skip -= len(hits)

                # Fetch next page of results
                if "_scroll_id" not in page:
                    break

                page = self.backend.es.scroll(scroll_id=page["_scroll_id"], scroll="2m")

            # Clear the scroll
            if "_scroll_id" in page:
                self.backend.es.clear_scroll(scroll_id=page["_scroll_id"])
        else:
            params.update(
                {
                    "from_": self.start,
                    "size": limit or PAGE_SIZE,
                }
            )

            # Send to Elasticsearch
            hits = self._backend_do_search(body, **params)["hits"]["hits"]

            # Get results
            for result in self._get_results_from_hits(hits):
                yield result

    def _do_count(self):
        # Get count
        hit_count = self.backend.es.count(
            index=self.backend.get_index_for_model(
                self.query_compiler.queryset.model
            ).name,
            body=self._get_es_body(for_count=True),
        )["count"]

        # Add limits
        hit_count -= self.start
        if self.stop is not None:
            hit_count = min(hit_count, self.stop - self.start)

        return max(hit_count, 0)


class ElasticsearchAutocompleteQueryCompilerImpl:
    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)

        # Convert field names into index column names
        # Note: this overrides Elasticsearch7SearchQueryCompiler by using autocomplete fields instead of searchable fields
        if self.fields:
            fields = []
            autocomplete_fields = {
                f.field_name: f
                for f in self.queryset.model.get_autocomplete_search_fields()
            }
            for field_name in self.fields:
                if field_name in autocomplete_fields:
                    field_name = self.mapping.get_field_column_name(
                        autocomplete_fields[field_name]
                    )

                fields.append(field_name)

            self.remapped_fields = fields
        else:
            self.remapped_fields = None

    def get_inner_query(self):
        fields = self.remapped_fields or [self.mapping.edgengrams_field_name]
        fields = [Field(field) for field in fields]
        if len(fields) == 0:
            # No fields. Return a query that'll match nothing
            return {"bool": {"mustNot": {"match_all": {}}}}
        elif isinstance(self.query, PlainText):
            return self._compile_plaintext_query(self.query, fields)
        elif isinstance(self.query, MatchAll):
            return {"match_all": {}}
        else:
            raise NotImplementedError(
                "`%s` is not supported for autocomplete queries."
                % self.query.__class__.__name__
            )


class Elasticsearch7AutocompleteQueryCompiler(
    ElasticsearchAutocompleteQueryCompilerImpl, Elasticsearch7SearchQueryCompiler
):
    pass


class ElasticsearchIndexRebuilder:
    def __init__(self, index):
        self.index = index

    def reset_index(self):
        self.index.reset()

    def start(self):
        # Reset the index
        self.reset_index()

        return self.index

    def finish(self):
        self.index.refresh()


class ElasticsearchAtomicIndexRebuilder(ElasticsearchIndexRebuilder):
    def __init__(self, index):
        self.alias = index
        self.index = index.backend.index_class(
            index.backend, self.alias.name + "_" + get_random_string(7).lower()
        )

    def reset_index(self):
        # Delete old index using the alias
        # This should delete both the alias and the index
        self.alias.delete()

        # Create new index
        self.index.put()

        # Create a new alias
        self.index.put_alias(self.alias.name)

    def start(self):
        # Create the new index
        self.index.put()

        return self.index

    def finish(self):
        self.index.refresh()

        if self.alias.is_alias():
            # Update existing alias, then delete the old index

            # Find index that alias currently points to, we'll delete it after
            # updating the alias
            old_index = self.alias.aliased_indices()

            # Update alias to point to new index
            self.index.put_alias(self.alias.name)

            # Delete old index
            # aliased_indices() can return multiple indices. Delete them all
            for index in old_index:
                if index.name != self.index.name:
                    index.delete()

        else:
            # self.alias doesn't currently refer to an alias in Elasticsearch.
            # This means that either nothing exists in ES with that name or
            # there is currently an index with the that name

            # Run delete on the alias, just in case it is currently an index.
            # This happens on the first rebuild after switching ATOMIC_REBUILD on
            self.alias.delete()

            # Create the alias
            self.index.put_alias(self.alias.name)


class Elasticsearch7SearchBackend(BaseSearchBackend):
    mapping_class = Elasticsearch7Mapping
    index_class = Elasticsearch7Index
    query_compiler_class = Elasticsearch7SearchQueryCompiler
    autocomplete_query_compiler_class = Elasticsearch7AutocompleteQueryCompiler
    results_class = Elasticsearch7SearchResults
    basic_rebuilder_class = ElasticsearchIndexRebuilder
    atomic_rebuilder_class = ElasticsearchAtomicIndexRebuilder
    catch_indexing_errors = True
    timeout_kwarg_name = "timeout"

    settings = {
        "settings": {
            "analysis": {
                "analyzer": {
                    "ngram_analyzer": {
                        "type": "custom",
                        "tokenizer": "standard",
                        "filter": ["asciifolding", "lowercase", "ngram"],
                    },
                    "edgengram_analyzer": {
                        "type": "custom",
                        "tokenizer": "standard",
                        "filter": ["asciifolding", "lowercase", "edgengram"],
                    },
                },
                "tokenizer": {
                    "ngram_tokenizer": {
                        "type": "ngram",
                        "min_gram": 3,
                        "max_gram": 15,
                    },
                    "edgengram_tokenizer": {
                        "type": "edge_ngram",
                        "min_gram": 2,
                        "max_gram": 15,
                        "side": "front",
                    },
                },
                "filter": {
                    "ngram": {"type": "ngram", "min_gram": 3, "max_gram": 15},
                    "edgengram": {"type": "edge_ngram", "min_gram": 1, "max_gram": 15},
                },
            },
            "index": {
                "max_ngram_diff": 12,
            },
        }
    }

    def _get_host_config_from_url(self, url):
        """Given a parsed URL, return the host configuration to be added to self.hosts"""
        use_ssl = url.scheme == "https"
        port = url.port or (443 if use_ssl else 80)

        http_auth = None
        if url.username is not None and url.password is not None:
            http_auth = (url.username, url.password)

        return {
            "host": url.hostname,
            "port": port,
            "url_prefix": url.path,
            "use_ssl": use_ssl,
            "verify_certs": use_ssl,
            "http_auth": http_auth,
        }

    def _get_options_from_host_urls(self, urls):
        """Given a list of parsed URLs, return a dict of additional options to be passed into the
        Elasticsearch constructor; necessary for options that aren't valid as part of the 'hosts' config
        """
        return {}

    def __init__(self, params):
        super().__init__(params)

        # Get settings
        self.hosts = params.pop("HOSTS", None)
        self.index_name = params.pop("INDEX", "wagtail")
        self.timeout = params.pop("TIMEOUT", 10)

        if params.pop("ATOMIC_REBUILD", False):
            self.rebuilder_class = self.atomic_rebuilder_class
        else:
            self.rebuilder_class = self.basic_rebuilder_class

        self.settings = deepcopy(
            self.settings
        )  # Make the class settings attribute as instance settings attribute
        self.settings = deep_update(self.settings, params.pop("INDEX_SETTINGS", {}))

        # Get Elasticsearch interface
        # Any remaining params are passed into the Elasticsearch constructor
        options = params.pop("OPTIONS", {})

        # If HOSTS is not set, convert URLS setting to HOSTS
        if self.hosts is None:
            es_urls = params.pop("URLS", ["http://localhost:9200"])
            # if es_urls is not a list, convert it to a list
            if isinstance(es_urls, str):
                es_urls = [es_urls]

            parsed_urls = [urlparse(url) for url in es_urls]

            self.hosts = [self._get_host_config_from_url(url) for url in parsed_urls]
            options.update(self._get_options_from_host_urls(parsed_urls))

        options[self.timeout_kwarg_name] = self.timeout

        self.es = Elasticsearch(hosts=self.hosts, **options)

    def get_index_for_model(self, model):
        # Split models up into separate indices based on their root model.
        # For example, all page-derived models get put together in one index,
        # while images and documents each have their own index.
        root_model = get_model_root(model)
        index_suffix = (
            "__"
            + root_model._meta.app_label.lower()
            + "_"
            + root_model.__name__.lower()
        )

        return self.index_class(self, self.index_name + index_suffix)

    def get_index(self):
        return self.index_class(self, self.index_name)

    def get_rebuilder(self):
        return self.rebuilder_class(self.get_index())

    def reset_index(self):
        # Use the rebuilder to reset the index
        self.get_rebuilder().reset_index()


SearchBackend = Elasticsearch7SearchBackend
